Jacques Faguet, Albany US

Jacques Faguet, Albany, NY US

Patent application number

Description

Published

20080241377

VAPOR DEPOSITION SYSTEM AND METHOD OF OPERATING - A method and system for depositing a thin film on a substrate using a vapor deposition process is described. The processing system comprises a process chamber having a pumping system configured to evacuate the process chamber, a substrate holder coupled to the process chamber and configured to support the substrate, and a gas distribution system coupled to the process chamber and configured to introduce a film forming composition to a process space in the vicinity of a surface of the substrate. Furthermore, a heat source is coupled to the gas distribution system, wherein the heat source comprises one or more heating elements coupled to a power source, and wherein the one or more heating elements are disposed on an interior surface of the gas distribution system or embedded within the gas distribution system or both, and configured to interact with the firm forming composition and cause pyrolysis of one or more constituents of the film forming composition when heated.

10-02-2008

20090321247

IONIZED PHYSICAL VAPOR DEPOSITION (iPVD) PROCESS - A method is provided of operating a deposition system to deposit coating material into high aspect ratio nano-sized features on a patterned substrate that enhances sidewall coverage compared to field area and bottom surface coverage while minimizing or eliminating overhang. The method includes performing a process step with a gross field area deposition rate of about 25 to 70 nm/min and simultaneously etching the barrier layer to establish a net field area deposition rate of about 5 to 40 nm/min. The method may also include first performing a protective layer deposition step with a field area deposition rate of about 5 to 20 nm/min without etching the underlying surface then performing a surface modification step with gross deposition and simultaneous etching at a field modification net deposition rate of about −10 to +40 nm/min.

12-31-2009

20100065758

DIELECTRIC MATERIAL TREATMENT SYSTEM AND METHOD OF OPERATING - A system for curing a low dielectric constant (low-k) dielectric film on a substrate is described, wherein the dielectric constant of the low-k dielectric film is less than a value of approximately 4. The system comprises one or more process modules configured for exposing the low-k dielectric film to electromagnetic (EM) radiation, such as infrared (IR) radiation and ultraviolet (UV) radiation.

03-18-2010

20100065759

DIELECTRIC TREATMENT MODULE USING SCANNING IR RADIATION SOURCE - A system for curing a low dielectric constant (low-k) dielectric film on a substrate is described, wherein the dielectric constant of the low-k dielectric film is less than a value of approximately 4. The system comprises one or more process modules configured for exposing the low-k dielectric film to electromagnetic (EM) radiation, such as infrared (IR) radiation and ultraviolet (UV) radiation.

03-18-2010

20100067886

IR LASER OPTICS SYSTEM FOR DIELECTRIC TREATMENT MODULE - A system for curing a low dielectric constant (low-k) dielectric film on a substrate is described, wherein the dielectric constant of the low-k dielectric film is less than a value of approximately 4. The system comprises one or more process modules configured for exposing the low-k dielectric film to electromagnetic (EM) radiation, such as infrared (IR) radiation and ultraviolet (UV) radiation.

03-18-2010

20100068897

DIELECTRIC TREATMENT PLATFORM FOR DIELECTRIC FILM DEPOSITION AND CURING - A system for curing a low dielectric constant (low-k) dielectric film on a substrate is described, wherein the dielectric constant of the low-k dielectric film is less than a value of approximately 4. The system comprises one or more process modules configured for exposing the low-k dielectric film to electromagnetic (EM) radiation, such as infrared (IR) radiation and ultraviolet (UV) radiation.

03-18-2010

20100247803

Chemical vapor deposition method - A chemical vapor deposition (CVD) method for depositing a thin film on a surface of a substrate is described. The CVD method comprises disposing a substrate on a substrate holder in a process chamber, and introducing a process gas to the process chamber, wherein the process gas comprises a chemical precursor. The process gas is exposed to a non-ionizing heat source separate from the substrate holder to cause decomposition of the chemical precursor. A thin film is deposited upon the substrate.

09-30-2010

20110061595

High temperature gas heating device for a vapor deposition system - A gas heating device that may be used in a system for depositing a thin film on a substrate using a vapor deposition process is described. The gas heating device may be configured for heating one or more constituents of a film forming composition. The gas heating device comprises one or more resistive heating elements. Additionally, the gas heating device comprises a mounting structure configured to support at least one of the one or more resistive heating elements. Furthermore, the gas heating device comprises a static mounting device coupled to the mounting structure and configured to fixedly couple the at least one of the one or more resistive heating elements to the mounting structure, and a dynamic mounting device coupled to the mounting structure and configured to automatically compensate for changes in a length of the at least one of the one or more resistive heating elements. Further yet, the dynamic mounting device comprises a thermal break configured to reduce heat transfer between the dynamic mounting device and the mounting structure.

03-17-2011

20110126762

VAPOR DEPOSITION SYSTEM - A system for depositing a thin film on a substrate using a vapor deposition process is described. The deposition system includes a process chamber having a vacuum pumping system configured to evacuate the process chamber, a substrate holder coupled to the process chamber and configured to support the substrate, a gas distribution system coupled to the process chamber and configured to introduce a film forming composition to a process space in the vicinity of a surface of the substrate, a non-ionizing heat source separate from the substrate holder that is configured to receive a flow of the film forming composition and to cause thermal fragmentation of one or more constituents of the film forming composition when heated, and one or more power sources coupled to the heating element array and configured to provide an electrical signal to the at least one heating element zone. The deposition system further includes a remote source coupled to the process chamber and configured to supply a reactive composition to the process chamber to chemically interact with the substrate, wherein the remote source comprises a remote plasma generator, a remote radical generator, a remote ozone generator, or a water vapor generator, or a combination of two or more thereof.

06-02-2011

20110135842

METHOD AND SYSTEM FOR PERFORMING DIFFERENT DEPOSITION PROCESSES WITHIN A SINGLE CHAMBER - A method and system for plasma-assisted thin film vapor deposition on a substrate is described. The system includes a process chamber including a first process space having a first volume, a substrate stage coupled to the process chamber and configured to support a substrate and expose the substrate to the first process space, a plasma generation system coupled to the process chamber and configured to generate plasma in at least a portion of the first process space, and a vacuum pumping system coupled to the process chamber and configured to evacuate at least a portion of the first process space. The system further includes a process volume adjustment mechanism coupled to the process chamber and configured to create a second process space that includes at least a part of the first process space and that has a second volume less than the first volume, the substrate being exposed to the second process space.

06-09-2011

20110233430

Ultraviolet treatment apparatus - A process module for treating a dielectric film and, in particular, a process module for exposing, for example, a low dielectric constant (low-k) dielectric film to ultraviolet (UV) radiation is described. The process module includes a process chamber, a substrate holder coupled to the process chamber and configured to support a substrate, and a radiation source coupled to the process chamber and configured to expose the dielectric film to electromagnetic (EM) radiation. The radiation source includes a UV source, wherein the UV source has a UV lamp, and a reflector for directing reflected UV radiation from the UV lamp to the substrate. The reflector has a dichroic reflector, and a non-absorbing reflector disposed between the UV lamp and the substrate, and configured to reflect UV radiation from the UV lamp towards the dichroic reflector, wherein the non-absorbing reflector substantially prevents direct UV radiation from the UV lamp to the substrate.

09-29-2011

20110244128

FLOW PLATE UTILIZATION IN FILAMENT ASSISTED CHEMICAL VAPOR DEPOSITION - A filament assisted chemical vapor deposition (FACVD) system. The FACVD system includes a gas distribution assembly, heater filament assembly, and a flow plate that is disposed between the gas distribution assembly and the heater filament assembly. The heater filament assembly and the flow plate have a corresponding extent across a dimension of the reactor and are separated by different distances across that extent.

10-06-2011

20110303145

Apparatus for chemical vapor deposition control - A gas heating device and a processing system for use therein are described for depositing a thin film on a substrate using a vapor deposition process. The gas heating device includes a heating element array having a plurality of heating element zones configured to receive a flow of a film forming composition across or through said plurality of heating element zones in order to cause pyrolysis of one or more constituents of the film forming composition when heated. Additionally, the processing system may include a substrate holder configured to support a substrate. The substrate holder may include a backside gas supply system configured to supply a heat transfer gas to a backside of said substrate, wherein the backside gas supply system is configured to independently supply the heat transfer gas to multiple zones at the backside of the substrate.

12-15-2011

20110305831

Method for chemical vapor deposition control - A method of depositing a thin film on a substrate in a deposition system is described. The method includes disposing a gas heating device comprising a plurality of heating element zones in a deposition system, and independently controlling a temperature of each of the plurality of heating element zones, wherein each of the plurality of heating element zones having one or more resistive heating elements. Additionally, the method includes providing a substrate on a substrate holder in the deposition system, wherein the substrate holder has one or more temperature control zones. The method further includes providing a film forming composition to the gas heating device coupled to the deposition system, pyrolyzing one or more constituents of the film forming composition using the gas heating device, and introducing the film forming composition to the substrate in the deposition system to deposit a thin film on the substrate.

12-15-2011

20120213929

METHOD OF OPERATING FILAMENT ASSISTED CHEMICAL VAPOR DEPOSITION SYSTEM - A method of performing a filament-assisted chemical vapor deposition process is described. The method includes providing a substrate holder in a process chamber of a chemical vapor deposition system, providing a non-ionizing heat source separate from the substrate holder in the process chamber, disposing a substrate on the substrate holder, introducing a film forming composition to the process chamber, thermally fragmenting the film forming composition using the non-ionizing heat source, and forming a thin film on the substrate in the process chamber. The non-ionizing heat source includes a gas heating device through and/or over which the film forming composition flows. The method further includes remotely producing a reactive composition, and introducing the reactive composition to the process chamber to interact with the substrate, wherein the reactive composition is introduced sequentially and/or simultaneously with the introducing the film forming composition.

08-23-2012

20120315404

APPARATUS FOR THERMAL AND PLASMA ENHANCED VAPOR DEPOSITION AND METHOD OF OPERATING - A method for vapor deposition on a substrate in a vapor deposition system having a process space separated from a transfer space. The method disposes a substrate in a process space of a processing system that is vacuum isolated from a transfer space of the processing system, processes the substrate at either of a first position or a second position in the process space while maintaining vacuum isolation from the transfer space by way of a movement accommodating sealing material, and deposits a material on the substrate at either the first position or the second position.